Convert Kernelhwsrv package from SFL to EPL
kernel\eka\compsupp is subject to the ARM EABI LICENSE
userlibandfileserver\fatfilenameconversionplugins\unicodeTables is subject to the Unicode license
kernel\eka\kernel\zlib is subject to the zlib license
// Copyright (c) 2005-2009 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of the License "Eclipse Public License v1.0"
// which accompanies this distribution, and is available
// at the URL "http://www.eclipse.org/legal/epl-v10.html".
//
// Initial Contributors:
// Nokia Corporation - initial contribution.
//
// Contributors:
//
// Description:
// e32\nkernsmp\x86\ncsched.cpp
//
//
// NThreadBase member data
#define __INCLUDE_NTHREADBASE_DEFINES__
#include <x86.h>
#include <apic.h>
// Called by a thread which has been forced to exit
// Kernel locked on entry
extern "C" void __fastcall do_forced_exit(NThreadBase* aT)
{
__NK_ASSERT_ALWAYS(aT->iFastMutexDefer != 1);
aT->iFastMutexDefer = 0;
aT->Exit();
}
extern "C" NThreadBase* __fastcall select_next_thread(TSubScheduler* aS)
{
return aS->SelectNextThread();
}
extern "C" void __fastcall queue_dfcs(TSubScheduler* aS)
{
aS->QueueDfcs();
}
extern "C" void NewThreadTrace(NThread* a)
{
__ACQUIRE_BTRACE_LOCK();
BTraceData.iHandler(BTRACE_HEADER_C(4,BTrace::ECpuUsage,BTrace::ENewThreadContext),0,(TUint32)a,0,0,0,0,0);
__RELEASE_BTRACE_LOCK();
}
extern "C" void __fastcall send_ipi(TUint32);
extern "C" void __fastcall do_send_resched_ipis(TUint32);
extern "C" void send_resched_ipi(TInt aCpu)
{
TSubScheduler& ss = TheSubSchedulers[aCpu];
__KTRACE_OPT(KSCHED2,DEBUGPRINT("@%d",aCpu));
send_ipi((TUint32)ss.i_APICID);
}
extern "C" void send_resched_ipis(TUint32 aMask)
{
__KTRACE_OPT(KSCHED2,DEBUGPRINT("@%02x",aMask));
#ifdef __USE_LOGICAL_DEST_MODE__
do_send_resched_ipis(aMask);
#else
TInt i=0;
while (aMask)
{
if (aMask&1)
send_resched_ipi(i);
aMask>>=1;
++i;
}
#endif
}
extern "C" void send_resched_ipi_and_wait(TInt aCpu)
{
TSubScheduler& ss = TheSubSchedulers[aCpu];
__KTRACE_OPT(KSCHED2,DEBUGPRINT("@@%d",aCpu));
volatile TUint32& irqc = (volatile TUint32&)ss.i_IrqCount;
volatile TInt& irqn = (volatile TInt&)ss.i_IrqNestCount;
TUint32 irqc0 = irqc;
mb();
send_ipi((TUint32)ss.i_APICID);
mb();
while (!ss.iRescheduleNeededFlag || (irqn<0 && irqc==irqc0))
{
__chill();
}
mb(); // guaranteed to observe final thread state after this
}
void TSubScheduler::SaveTimesliceTimer(NThreadBase* aT)
{
if (aT->iTime>0 && !aT->i_NThread_Initial)
{
TUint32 remain32 = read_apic_reg(CURRCNT);
TUint64 x(remain32);
x *= TUint32(i_TimerMultI);
x += 0x00800000u;
x >>= 24;
aT->iTime = (TInt)x;
}
write_apic_reg(INITCNT, 0);
}
/* Update aOld's execution time and set up the timer for aNew
Update this CPU's timestamp value
if (!aOld) aOld=iInitialThread
if (!aNew) aNew=iInitialThread
if new thread has a timeslice, start the timeslice timer
update the last reschedule time
update the run time for the old thread
update the reschedule count for the new thread and the current CPU
*/
void TSubScheduler::UpdateThreadTimes(NThreadBase* aOld, NThreadBase* aNew)
{
if (!aOld)
aOld = iInitialThread;
if (!aNew)
aNew = iInitialThread;
if (aNew->iTime>0)
{
TUint32 remain32 = (TUint32)aNew->iTime;
TUint64 x(remain32);
x *= TUint32(i_TimerMultF);
x += 0x80000000u;
x >>= 32;
write_apic_reg(LVTTMR, TIMESLICE_VECTOR);
write_apic_reg(INITCNT, (TUint32)x);
}
if (aNew!=aOld)
{
TUint64 now = NKern::Timestamp();
aOld->iTotalCpuTime64 += (now - iLastTimestamp64);
iLastTimestamp64 = now;
++iReschedCount64;
++aNew->iRunCount64;
}
}